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![Page 1: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/1.jpg)
Spin Meissner effect in superconductors and the origin of the Meissner effect
J.E. Hirsch, UCSD Hvar, 2008
Why the Meissner effect is not understood, and how it can be
understood
Spin Meissner effect: spontaneous spin current in the ground
state of superconductors
Charge expulsion, charge inhomogeneity in superconducting state
Electrodynamic (London-like) equations for charge and spin
Experiments
![Page 2: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/2.jpg)
3 key pieces of the physics that BCS theory got right:* Cooper pairs
* Macroscopic quantum coherence* Electron-phonon-induced attraction between electrons
* Energy gap
![Page 3: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/3.jpg)
3 key pieces of the physics that BCS theory got right:* Cooper pairs
* Macroscopic quantum coherence* Electron-phonon-induced attraction between electrons
* Energy gap
(1) Key role of electron-hole asymmetry
(2) Key role of kinetic energy lowering as driving force
(4) Key role of spin-orbit interaction
(5) Key role of mesoscopic orbits
1988-2008
http://physics.ucsd.edu/~jorge/hole.html
(3) Macroscopic charge inhomogeneity and internal E-field
(6) Spontaneous currents in the absence of applied fields
![Page 4: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/4.jpg)
Meissner effect: expulsion of magnetic field from interior of superconductor
1933The expulsion of magnetic flux from the interior of a superconducting metal when it is cooled in a magnetic field to below the critical temperature, near absolute zero, at which the transition to superconductivity takes place. It was discovered by Walther Meissner in 1933, when he measured the magnetic field surrounding two adjacent long cylindrical single crystals of tin and observed that at ?452.97°F (3.72 K) the Earth's magnetic field was expelled from their interior. This indicated that at the onset of superconductivity they became perfect diamagnets. This discovery showed that the transition to superconductivity is reversible, and that the laws of thermodynamics apply to it. The Meissner effect forms one of the cornerstones in the understanding of superconductivity, and its led F. London and H. London to develop their phenomenological electrodynamics of superconductivity.The magnetic field is actually not completely expelled, but penetrates a very thin surface layer where currents flow, screening the interior from the magnetic field.
cool
L=London penetration depth
![Page 5: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/5.jpg)
same final state
EFaraday
I I
super normal
cool
apply B
two pathways to Meissner current
expel B
Faraday electric field points in opposite directions
Meissner current I points in the same direction
cool
cool
super normal
apply B
B
I
![Page 6: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/6.jpg)
Why the Meissner effect is a puzzle
What is the 'force'pushing the electrons near the surface tostart moving all in the same direction, opposite to eEFarad ?
How is angular momentum conserved???
Meissnerstate
Current develops'spontaneously' uponcooling or lowering Hopposing EFarad
I
Lower the temperature...or lower slightly the applied H...
B=0
EFarad
B
![Page 7: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/7.jpg)
The key to the Meissner effect
L
I
vs
R
Angular momentum in Meissner current:
(h=cylinder height, ns=superfluid density)
€
Le = (2πRλ Lhns) × (mevsR)
€
=(πR2hns) × (mevs(2λ L ))
r=2L orbits!
B
€
mevsR =angular momentum of 1 el
€
2πRλ Lhns =# of electrons in surface layer
2L
€
mevs(2λ L )
€
πR2hns
bulk
some very complicated math. . . ..
cylinder
![Page 8: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/8.jpg)
Some simple relations:
€
=−1
3(
eh
2mec)2(
3nme
h2kF2
)
Density of states at the Fermi energy:
€
g(εF ) =3n
2εF
=3nme
h2kF2
Normal state: Superconducting state:London penetration depth:
€
1
λ L2
=4πnse
2
mec2
€
χLandau = −1
3μB
2 g(εF )
Magnetic susceptibility: Magnetic susceptibility:
€
χLondon = −1
4π
€
=−ne2
4mec2
< (kF−1)2 >
€
=−nse
2
4mec2
< (2λ L )2 >
€
=−1
4
nse2
mec2
4mec
2
4πnse2
![Page 9: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/9.jpg)
Larmor diamagnetism
rv
Apply magnetic field B:
€
rE ⋅d
r l = −
1
c∫ ∂
∂t
r B ∫ ⋅d
r a
€
=>2πrE = −1
c
∂B
∂tπr2
magnetic susceptibility per unit volume: n=electrons/unit vol
€
χLarmor = nΔμ
B= −
ner2
4mec2
€
=−ne2
4mec2
< (kF−1)2 >
€
=−nse
2
4mec2
< (2λ L )2 >or
B
v
€
=>me
dv
dt= eE = −
er
2c
∂B
∂t
€
=>v = −er
2mecB
Orbital magnetic moment:
€
μ =e
2mecl =
e
2mecmevr =
er
2cv
€
=>μ =er
2cΔv = −
er
2c
er
2mecB = −
e2r2
4mec2
B
€
χLarmor = nΔμ
B= −
ne2
4mec2
r2
![Page 10: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/10.jpg)
€
=−nse
2
4mec2
< (2λ L )2 >
How the transition occurs
2Lorbit expansion: kF-1
r=2L orbits
€
χLarmor = −nse
2
4mec2
< r2 >B
r
Normal state: Superconducting state:
€
χLandau = −1
3μB
2 g(εF )
€
=−nse
2
4mec2
< (kF−1)2 >
€
χLondon = −1
4π
r=kF-1 orbits
![Page 11: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/11.jpg)
same final state
EFaraday
I I
super normal
cool
apply B
two pathways to Meissner current
expel B
![Page 12: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/12.jpg)
€
A = λ LB
€
< p >= 0
The two pathways to the Meissner current
rv
Apply magnetic field B:
€
rE ⋅d
r l = −
1
c∫ ∂
∂t
r B ∫ ⋅d
r a
Expand electron orbit in B:
Faraday's law pushes e- Lorentz force pushes e-
B
v
€
=>v = −er
2mecB
€
=>me
dv
dt= eE = −
er
2c
∂B
∂t
€
=>vφ = −er
2mecB
r=2L
€
rF =
e
c
r v ×
r B +
r F r = me
dr v
dt
€
d
dt(r r ×
r v ) = −
e
2mec(r r ⋅
r v )
r B = −
e
2mec
d
dt(r2)
r B
vEv
B
F r
€
v =1
m(p −
e
cA)
BCS:
€
=>v = vφ = −eλ L
mecB
![Page 13: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/13.jpg)
r=2L orbitsr=kF-1 orbits
Why is there macroscopic phase coherence in superconductors?
Normal stateNon-overlapping orbitsRelative phase doesn't matter
Superconducting stateHighly overlapping orbitsPhase coherence necessaryto avoid collisions
![Page 14: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/14.jpg)
==>
€
:L2 =
mec2
4πe2×
h2
mee2
× a02 =
1
4π
hc
e2a0
⎡ ⎣ ⎢
⎤ ⎦ ⎥
2
€
:L2 =
mec2
4πnse2
, ns =1
a03
€
a0 =h2
mee2,
137
A little help from a friend...
![Page 15: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/15.jpg)
==>
€
:L2 =
mec2
4πe2×
h2
mee2
× a02 =
1
4π
hc
e2a0
⎡ ⎣ ⎢
⎤ ⎦ ⎥
2
€
:L2 =
mec2
4πnse2
, ns =1
a03
€
a0 =h2
mee2,
137
A little help from a friend...
The speed of light must enter into the superconducting wave function!
![Page 16: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/16.jpg)
So we learn from the Meissner effect that:transition to superconductivity = expansion of electronic orbit from r=kF
-1 to r=2L
What happens when there is no magnetic field?
Spin-orbit force deflects electron in expanding orbit!
![Page 17: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/17.jpg)
Spin orbit scattering (Goldberger&Watson)
scatteringcenter scattering
center
μv p
€
rp =
r v
c×
r μ a moving magnetic moment is
equivalent to an electric dipole
spin-orbit spin-orbit
μ μ
vμ
![Page 18: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/18.jpg)
So we learn from the Meissner effect that:transition to superconductivity = expansion of electronic orbit from r=kF
-1 to r=2L
What happens when there is no magnetic field?
Spin-orbit force deflects electron in expanding orbit!μ
v p
€
rp =
r v
c×
r μ
€
dr L
dt=
r τ =
r p ×
r E
E
€
me
d
dt(r r ×
r v ) = (
r v
c×
r μ ) ×
r E =
1
c(
r E ⋅
r v )
r μ
€
with r E = α
r r : me
d
dt(r r ×
r v ) =
α
c(r r ⋅
r v )
r μ =
α
2c
d
dt(r2)
r μ
€
=>vφ =E
2mecμB
€
=> r
r ×r v =
α
2c(r2)
r μ =
Er
2c
r μ
μ
μ
€
vφ
€
vφ
![Page 19: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/19.jpg)
€
=>vφ =E
2mecμB
€
E = 2πρr, ρ =| e | ns
€
=>vφ =2πensr
2mecμB =
πensr
mec
eh
2mec
€
; with 4πnse
2
mec2
=1
λ L2
€
vφ =h
8me
r
λ L2
€
vφ =h
4meλ L
For r=2L
€
==> L = mevφr = . . ..
€
=h2
!!!!!!!!
Eμ
μ
€
vφ
€
vφ
What's E?
![Page 20: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/20.jpg)
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The two pathways to the Spin Meissner current
rv
'Apply' electric field E: Expand electron orbit in E:Maxwell's law pushes μ Lorentz torque pushes μ
μ
v
r=2L
v
E(t)
r
€
r =d
r L
dt= me
d
dt(r r ×
r v ) =
e
c
r r × (
r v ×
r B eff )
€
r =
rp ×
r E = (
r v
c×
r μ ) × (2π | e | ns
r r )
€
rB eff = 2πns
r μ
€
=>vφ = −er
2mecBeff = −
πnseμB
mecr
€
==> L = mevφr =h
2
€
=>me
dr v
dt=
r ∇(
r μ ⋅
r B ) =
1
2
r μ × (
r ∇ ×
r B )
€
=1
2c
∂
∂t(r μ ×
r E )
€
=>v = −1
2mec|r μ ×
r E |= −
πnseμB
mecr
Bμ
v
€
=>v = vφ = −2πnseμB
mecλ L = −
hπnse2
me2c 2
λ L = −h
4meλ L
€
r∇ ×
rB =
1
c
∂r E
∂t
![Page 22: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/22.jpg)
Ground state of a superconductor
r=2L orbits r=2L orbits
spin down electrons spin up electrons
Currents in the interior cancel out, near the surface survive
==> there is a spontaneous spin current in the ground state of superconductors!
![Page 23: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/23.jpg)
There is a spontaneous spin current in the ground state ofsuperconductors, flowing within L of the surface
€
rμ = eh
2mec
r σ
For L=400A, vcm/s
# of carriers in the spin current: ns
When a magnetic field is applied:
μ
μnv0
€
rv σ 0 = −
h
4meλ L
r σ × ˆ n
€
rv σ =
r v σ 0 −
e
mecλ L
r B × ˆ n
The slowed-down spin component stops when
€
B =mec
eλ L
vσ 0
€
=hc
4eλ L2
€
=φ0
4πλ L2
~ Hc1!
€
φ0 = hc / 2 | e |
v
B
no external fields applied
(JEH, EPL81, 67003 (2008))
![Page 24: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/24.jpg)
Summary of argument:
1)
€
1
λ L2
=4πnse
2
mec2 (Ampere, Faraday, Newton, London)
3) Magnetic moment of electron is
€
μB =eh
2mec
Therefore: Superconductivity is an intrinsically relativistic effect
Electron spin and associated magnetic moment plays a key role The wavefunction of a superconductor contains c=speed of light
1)+2)+3)+4) ==>
€
L = h /2
1)+2)+3)+4) ==> magnetic field that stops the spin current is Hc1
2) Orbits have radius (to explain origin of Meissner current)
€
2λ L
4) Background positive charge density is = - superfluid dens.
€
| e | ns
![Page 25: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/25.jpg)
What makes electrons move in the direction needed to create all these currents when T is lowered from above to below Tc?
B
Intermediatestate
B
I
Meissnerstate
I
B
I
Vortex state
Back to: cooling a superconductor in the presence of a B-field:A clue from plasma physics
![Page 26: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/26.jpg)
www.mpia-hd.mpg.de/homes/fendt/Lehre/Lecture_OUT/lect_jets4.pdf
A clue from plasma physics
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B
I
Meissnerstate
Intermediatestate
LeB
Vortex state
B
ILe
ve
€
rF B =
e
c
r v ×
r B
v
FB
v FB v
FB
Electrons have to flow away fromthe interior of the superconductor,towards the surface and towardsthe normal regions!
But if there is charge flow, it will result in charge inhomogeneity andan electric field in the interior of superconductors.
€
r∇ ⋅
rE = 4πρ
![Page 28: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/28.jpg)
But if there is charge flow, it will result in charge inhomogeneity andan electric field in the interior of superconductors.
Can there be an electric field inside superconductors?
€
∂J
∂t=
ne2
mE free acceleration of electrons
London says NO. First London equation (1934):
€
J = nev (n=density, v=speed, J=current)
If E = 0, J increases to infinity, unless Newton’s law is violated?
€
mdv
dt= eE
€
r∇ ⋅
rE = 4πρ
€
dr v
dt=
∂r v
∂t+
r ∇v 2
2−
r v × (∇ ×
r v ) !
€
ne∂v
∂t=
ne2
mE + ne(
r v × (∇ ×
r v ) −
r ∇v 2
2)
€
∂J
∂t=
€
=ne2
m(E +∇φ)
€
∂J
∂t=
€
∂J
∂tcan be zero even if E is non-zero!
![Page 29: Spin Meissner effect in superconductors and the origin of the Meissner effect J.E. Hirsch, UCSD Hvar, 2008 Why the Meissner effect is not understood,](https://reader036.fdocuments.net/reader036/viewer/2022062300/56649e615503460f94b5c5aa/html5/thumbnails/29.jpg)
€
∂J
∂t=
ne2
mE
New electrodynamic equations for superconductors (JEH, PRB69, 214515 (2004))
1)
2)
€
∇⋅A +1
c
∂φ
∂t= 0 ; (Lorenz gauge)
€
(r, t) − ρ 0 = −1
4πλ L2
[φ(r, t) − φ0(r)]
€
φ0(r) = d3∫ r'ρ 0
| r − r' |==>
€
E = −∇φ −1
c
∂A
∂t Note: ==>
€
J = −ne2
mcA = −
c
4πλ L2
A ; 1
λ L2
≡4πne2
mc 2
€
∂J
∂t= −
ne2
mc
∂A
∂t=
ne2
m(E +∇φ) , NOT
€
∂∂t
= −1
4πλ L2
∂φ
∂t
, continuity equation:
€
∇⋅J +∂ρ
∂t= 0 ==>
€
∇⋅J = −c
4πλ L2∇ ⋅A
integrate in time, 1 integration constant 0 , ...
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Electrodynamics
€
∇2B =1
λ L2
B +1
c 2
∂ 2B
∂t 2
€
∇2J =1
λ L2
J +1
c 2
∂ 2J
∂t 2
€
∇2(E − E0) =1
λ L2
(E − E0) +1
c 2
∂ 2(E − E0)
∂t 2
€
∇2(ρ − ρ 0) =1
λ L2
(ρ − ρ 0) +1
c 2
∂ 2(ρ − ρ 0)
∂t 2
Relativistic form: 2
€
≡∇2 −1
c 2
∂ 2
∂t 2
or equivalently
€
J − J0 = −c
4πλ L2
(A − A0)€
(A − A0) =1
λ L2
(A − A0)2
€
A = (r A (
r r , t),iφ(
r r , t))
€
J = (r J (
r r , t),icρ(
r r , t))
€
J0 = (0,icρ 0)
€
A0 = (0,iφ0(r r ))
€
r∇ ⋅
rE 0 = 4πρ 0
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;
€
∇2φ(r) = 0 outside supercond.
+assume (r) and its normal derivative are continuous at surface
Electrostatics:
€
∇2φ(r) = −4πρ(r)
€
∇2φ0(r) = −4πρ 0
€
∇2(φ(r) − φ0(r)) =1
λ L2
(φ(r) − φ0(r))
€
∇2(ρ(r) − ρ 0) =1
λ L2
(ρ(r) − ρ 0)
€
∇2(r E −
r E 0) =
1
λ L2
(r E −
r E 0)
L
€
(r) = ρ 0(1−R3
3λ L2
sinh(r /λ L )
R /λ L cosh(R /λ L ) − sinh(R /λ L ))
Solution for sphere of radius R:
No electric field outside sphere
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Sample size dependence of expelled charge (Q) and E-field
< 0 = charge density near surface
> 0 = charge density in interior
Q ~ R3 ~ - R2 L
Electrostatic energy cost:
UE ~ Q2/R ~ ( R2 L)2/R ~ ( R3 ~ ( R5 ~ Volume~R3
==> independent of R, ~ 1/R
sphere of radius R
Electric field vs. r: E
Em
r R1 R2
€
Em = −4πλ Lρ−
independent of R
how big is - , Em
?
L
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How much charge is expelled?
element Tc(K) Hc(G) L(A) Extra elec- trons/ion
Em
(Volts/cm)
Al 1.14 105 500 1/17 mill 31,500
Sn 3.72 309 510 1/3.7 mill 92,700
Hg 4.15 412 410 1/2.5 mill 123,600
Pb 7.19 803 390 1/1 mill 240,900
Nb 9.50 1980 400 1/1.3 mill 308,400
Emax
RR
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Spin currents in superconductors (JEH, Phys. Rev. B 71, 184521 (2005))
€
ck↑+ c−k↓
+carries a spin current
€
< ck↑+ c−k↓
+ >≠< c−k↑+ ck↓
+ > necessarily in the presence of internal E-field
Internal electric field (in the absence of applied B) pointing out
€
Jch arg e =n
2(v↑ + v↓ ) = 0 no charge current ==> no B-field
€
Jspin =n
2(v↑ − v↓ ) ≠ 0 spin current without charge current!
E
Flows within a London penetration depthof the surface
Speed of spin current carriers:~ 100,000 cm/s
Number of spin current carriers:=superfluid density
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€
0 = −2λ L
Rρ−
€
vσ 0 =h
4meλ L
σ
How much charge is expelled?
We now have 2 new pieces of physics of superconductors:
r=2L orbits
How are they related?
L0
€
Em = −4πλ Lρ−spin current
charge expulsion
€
L = h /2
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€
vσ 0 =h
4meλ L
σ ==>
~ Hc1
(JEH)
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€
Em = −hc
4eλ L2
=φ0
4πλ L2
~ Hc1
€
−=nsevσ 0
c
€
ns(1
2mevσ 0
2 ) =Em
2
8π
€
Jσ (r r ) ≡ ensvσ (
r r ) = −
c
8πλ L
r σ × (
r E (
r r ) −
r E 0(
r r ))
€
r∇ ×Jσ (
r r ) = −
c
2λ L
(ρ(r r ) − ρ 0) μ
μnv0
€
vσ 0 =h
4meλ L
σ
(Recall
€
ns(1
2mevs
2) =B2
8π)
€
−
€
€
Em = −4πλ Lρ− (charge neutra-lity)
€
=hc
16πeλ L3
Emax
R
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Spin current electrodynamics (4d formulation)
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Energetics
€
vσ 0 =h
4meλ L
σ
€
εpair = 2 ×1
2me (vσ
0 )2
Apply a magnetic field:
€
v↑ = v↓ = vσ0
€
v↑ → 2vσ0 , v↓ → 0, ε pair →
1
2me (2vσ
0 )2 = 4 ×1
2me (vσ
0 )
==> condensation energy per particle:
€
εc =1
2me (vσ
0 )2
energy lowering per particle in entering sc state:
€
2εc2εc = εc + εc
Coulomb energy cost + condensation energy
€
ns(1
2mevσ 0
2 ) =Em
2
8π
€
1
2mevσ 0
2 =1
4
h2
2me(2λ L)2
€
=π2
nsμ B2
€
~ 1.5μeV~ condensation energy of sc
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Type I vs type II materials=distance between orbit centers
Type I: > 2L
Type II: < 2L
Phase difference:
€
hπ =e
cΦB ==> ΦB =
hc
2e≡ Φ0
€
Φ0 =hc
(2e)
€
=h
2
⎛
⎝ ⎜
⎞
⎠ ⎟c
e
€
rp = me
r v +
e
c
r A ,
r p =
h
i
r ∇
€
hϑ =me
r v ⋅d
r l ∫ +
e
cΦB
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What drives superconductivity?
1) Excess negative charge (CuO2)=, (MgB2)-, (FeAs)-
3) Kinetic energy lowering
2) Almost full bands (hole conduction in normal state)
(Kinetic energy is highest when band is almost full)
kF-1 is small
kF
too many electrons!
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How is angular momentum conserved in the Meissner effect??
Electromagnetic field carries angular momentum!
=-Le
But - is way too small to give enough Lfield
Spin-orbit interaction transfers counter-L to ions!
JEH, J. Phys.: Condens. Matter 20 (2008) 235233
B
B
Le
Lfield
Lions
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Experimental tests?
1) Detect spin current μ
μnv0* polarized light scattering (PRL100, 086603 (08)
* inelastic polarized neutron scattering
* photoemission
* Detect electric fields produced by spin current
* Insert a 'spin current rectifier'
2) Detect internal electric field
3) Response of superconductor to applied electric field
4) Detect change in plasmon dispersion relation in sc state
.....
* positrons, muons, neutrons
(Tao effect)
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To prove this theory wrong, find clear experimentalevidence for any of the following:
* A superconductor that has no hole carriers in normal state
* A superconductor that has no outward-pointing electric field in its interior
* A superconductor that has no spontaneous spin current near the surface, with carrier density ns/2 and speed
€
v = h /4meλ L
* A superconductor with tunneling asymmetry of intrinsic origin that has opposite sign to the one usually observed
* A superconductor with gap function that has no εk dependence
* A superconductor that expels magnetic fields without expelling negative charge
* A high Tc superconductor with no excess negative charge anywhere
* A superconductor not driven by kinetic energy lowering
IT IS A FALSIFIABLE THEORY!